Symposium 3: Function and Pathogenesis in Parkinson’s Disease. Synuclein: the third amyloid in Alzheimer's disease

A dramatic paradigm shift in understanding Parkinson's disease (PD) has emerged with implications for Alzheimer's disease (AD) because: (1) Mutations in the alpha‐synuclein (AS) gene cause familial PD, (2) Antibodies to AS detect Lewy bodies (LBs) and dystrophic Lewy neurites in PD, dementia with LBs (DLB), sporadic AD and the LB variant of AD (LBVAD), (3) Insoluble AS filaments are recovered from DLB brains and purified LBs, (4) Recombinant AS assembles into LB‐like filaments and residues 71–82 are essential for filament assembly, (5) AS transgenic mice and flies develop a PD‐like phenotype, (6) Cortical LBs detected with antibodies to AS correlate with dementia in PD, DLB and LBVAD, (7) Antibodies to AS detect LBs in 50% of familial AD, sporadic AD and Down's syndrome brains, (8) AS forms glial cytoplasmic inclusions (GCIs) in multiple system atrophy, (9) Epitopes throughout AS in LBs and GCIs, (10) Filamentous AS aggregates in LBs, GCIs and related lesions contain nitrated tyrosines, (11) Cells transfected with AS and treated with nitric oxide generators develop LB‐like AS inclusions, (12) Bigenic mice overexpressing mutant human APP and AS show an augmentation in AS inclusions. Thus, neurodegenerative diseases characterized by AS pathologies are synucleinopathies, and the filamentous AS lesions in these disorders may result in part from oxidative/nitrative damage to AS. Abnormal interactions of brain proteins may underlie synucleinopathies and other neurodegenerative disorders. Acknowledgements: Supported by NIA/NIH and Alzheimer's Association.